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Opinionated - China Chipping Away to Semiconductor Dominance

China DRAM startup to enter 19nm chip production in February 2018

Josephine Lien, Taipei; Jessie Shen, DIGITIMES [Thursday 29 June 2017]

Hefei Rui-Li (transliterated from Chinese) Integrated Circuit will start making DRAM chips using 19nm process technology around the end of February 2018, according to industry sources.

Formerly named Hefei Chang Xin, Rui-Li IC will start installing equipment at its new 12-inch fab at the end of 2017 which is ahead of schedule, said the sources. Rui-Li has started negotiating with silicon wafer providers to ensure a sufficient supply.

Rui-Li's 12-inch fab will directly enter the manufacture of 19nm DRAM chips, the sources indicated. Rui-Li will start making the first batch of its DRAM products built using the node technology at the end of February 2018, the sources said.

In addition, speculation has circulated recently in China's memory industry that Yangtze River Storage Technology (YMTC) acting chairman Charles Kau has been in touch Yukio Sakamoto, the former president of Elpida Memory.

Kau was quoted in previous reports saying YMTC is considering developing its own DRAM manufacturing technology, and may enter 18/20nm production. YMTC has a more clear goal for its NAND flash business with plans to offer samples of 32-layer 3D NAND products at the end of 2017 and enter mass production of 64-layer NAND chips in 2019.

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http://www.digitimes.com/news/a20170629PD218.html
 
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SMIC mass producing 28nm HKMG chips

ean Chu, Taipei; Jessie Shen, DIGITIMES [Monday 26 June 2017]

Semiconductor Manufacturing International's (SMIC) 28nm HKMG process has entered its mass production stage, according to company CEO Haijun Zhao. SMIC will move forward making chips using a newer 14nm process in 2018, said Zhao.

SMIC, along with other China-based IC foundries, are looking to start volume production of 14/16nm chips in 2018, Zhao indicated.

Zhao identified 28nm as a long-lived node which will be available through 2025. The next long-live nodes could be 10nm or 7nm, while 14/16nm are relatively short-lived nodes, Zhao said.

SMIC is aiming to become a global top-3 pure-play foundry chipmaker, but the company still needs to more than double its sales scale in order to reach the goal, Zhao noted. Annual sales will have to be at least US$6 billion for SMIC to be among the top three, Zhao said.

In addition, Zhao suggested that the IC industry development will go in three directions: IC dies shrinking in size; a variety of chip types that don't require die shrinking due to diverse demand; and the importance of SiP (system-in-package) packaging.

Zhao also commented that 18-inch wafers are unlikely to replace 12-inch as the mainstream until five years later.


China Big Fund commits investment of CNY85 billion

Jean Chu, Shanghai; Jessie Shen, DIGITIMES [Tuesday 27 June 2017]

China's National Semiconductor Industry Investment Fund (known as the Big Fund) has committed to invest CNY85 billion (US$12.4 billion) into the local IC industry, mainly the manufacturing sector, according to Ding Wenwu, president of the fund.

As of the end of April 2017, the Big Fund made investments in a total of 37 enterprises, said Ding. Of the committed investments, CNY62.8 billion has been spent accounting for 45.5% of the fund's fund raising scale, Ding indicated.

Investments in the IC manufacturing sector account for 67% of the Big Fund's total committed investments in China's local IC industry, Ding disclosed. The fund has given its financial support to companies including Semiconductor Manufacturing International (SMIC), Yangtze River Storage Technology and Huahong Grace Semiconductor Manufacturing, which are able to greatly enhance their advanced manufacturing capacity and speed up volume production for storage chips, Ding said.

In the IC design sector, the Big Fund has increased its investments in the local major firms engaged in the development of CPU, FPGA and other high-end chips, Ding noted. Investments in the IC design sector account for 17% of the fund's total committed investments in China's IC industry, Ding said.

As for the packaging segment, the Big Fund supports mainly the local major players including Jiangsu Changjing Electronics Technology (JCET) and Tongfu Microelectronics, which will use the funds to improve their advanced packaging capabilities, Ding indicated. Investments in the sector account for 8% of the fund's total committed investments in the overall IC industry.

The Big Fund has made relatively small investments in China's local equipment and materials sector, Ding said. Nevertheless, the fund is keeping an eye on the sector development.:hitwall::devil:
 
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Imec looking to deepen partnerships with China-based chipmakers

Jean Chu, Shanghai; Jessie Shen, DIGITIMES [Wednesday 28 June 2017]

China has the possibility to become a world-class semiconductor industry if local players make good use of resources domestically and internationally, according to Huiwen Ding, head of Imec China.

With the China government financing its local IC industry sectors, China-based chipmakers are able to utilize the support to enhance their production capability and business scale, said Ding. Nevertheless, China-based chipmakers will have to rely on international resources for their technology capabilities, Ding indicated.

Making good use of resources available from international research institutions, like imec, will help China-based chip firms avoid unnecessary investments or R&D, and seize new business opportunities, Ding noted. China-based chipmakers can implement R&D based on imec's available resources to develop their own technologies, Ding said.

Imec is engaged in R&D of 7nm and 5nm process development tools, and is about to complete the development of 7nm process development tools, according to Ding. The nano electronics research center has also started R&D of 3nm and 2nm process development tools.

Imec with its partners have carried out 10nm, 14nm, 20nm, 28nm and more mature process platforms for logic IC manufacturing, Ding indicated. Imec has built an innovation ecosystem that has draw participation of the world's leading chipmakers including Intel, Samsung, TSMC, HiSilicon, Qualcomm and ARM, as well as equipment and materials suppliers.

Eyeing the industry growth potential, imec is looking to partner with more China-based chipmakers and deepen its partnerships locally in China, Ding said.

In addition, Ding commented that Moore's Law will continue to prevail with new technology breakthroughs. The emergence of 3D FinFETs, for example, has kept Moore's Law relevant enabling chipmakers to push into sub-10nm processes, Ding said. New technologies, such as using silicon germanium (SiGe) as a channel material, or lateral nanowire transistors (LNW), will become practical in 2020 to further extend Moore's Law, Ding identified.

Imec is also looking into neural network computing and quantum computing that could replace traditional transistors, according to Ding.

The chip market growth is driven by more and broader end-market applications, Ding indicated. Applications such as IoT, mobile communications and cloud computing have their diverse demand for chips, Ding said. IoT connected devices require low-power chips, while chips for cloud computing applications have to satisfy high-performance needs and come with a power dissipation of 100W or more.

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Huiwen Ding, head of Imec China
Photo: Jean Chu, Digitimes, June 2017

http://www.digitimes.com/news/a20170628PD211.html
 
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China's Leading Silicon Photonics Platform Developed by IMECAS
Jul 07, 2017

Recently, the Integrated Circuit Advanced Process Center of Institute of Microelectronics of Chinese Academy of Sciences (IMECAS) released silicon photonics platform based on 8-inch Complementary Metal Oxide Semiconductor (CMOS) process line, which marks a significant increase in R & D capability in the field of silicon photonics in China.

Silicon photonics technology is a new technology developed under the trend of integration of microelectronics and optoelectronics in the post Moore Era. It utilizes mature CMOS technology and platform, and develops optoelectronic devices and chips based on silicon-based materials.

Silicon photonics not only has the urgent application demand in the field of optical communication and optical interconnection, but also is the potential technology to realize the optical interconnection and optical computer in the future. For a long time, China lacks perfect silicon photonic technology platform, which restricts the development of silicon photonics technology to a great extent.

Since 2015, IMECAS has begun to develop silicon photonics process technology based on the 8-inch CMOS process line. The Institute has developed a complete set of silicon photonic process modules. A series of silicon photonic devices including single-mode waveguide, Y branch, optical cross device, coupled grating, tunable attenuator, germanium detector and modulator have been successfully demonstrated.

The Process Design Kit (PDK) based on the platform has been released. The Institute is providing the service of Multi Project Wafer (MPW) process for domestic customers.

This silicon photonics platform is the first platform which provides a complete process of silicon photonic chip in China.

W020170707555647089650.jpg

Figure 1: Waveguide (Image by IMECAS)

W020170707555647092767.jpg

Figure 2: Y Branch (Image by IMECAS)


China's Leading Silicon Photonics Platform Developed by IMECAS---Chinese Academy of Sciences
 
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China Exclusive: Carbon-based transistors look to boost China's chip industry
Source: Xinhua| 2017-07-11 12:58:53|Editor: Liangyu



BEIJING, July 11 (Xinhua) -- At a time when modern life is increasingly dependent on electronic devices, their key parts, chips, are nearing their performance limit.

It is widely agreed that one option to tackle the problem is to replace silicon with carbon nanotubes to make transistors in chips. A group of Chinese researchers has made a breakthrough in the field, offering hope for China's chip industry.

In January, a study led by Peng Lianmao, a professor with Peking University, was published in Science Magazine -- researchers in Peng's team successfully developed high-performance carbon nanotube transistors proven to be able to perform better than silicon-based semiconductor transistors at the same scale.

For a long time, the semiconductor industry has been dependent on Moore's Law to improve performance, which states that the number of transistors per square inch on a microchip doubles every year.

Many believe that Moore's Law will break down by 2020 when there will be no room for transistor numbers to further increase.

Besides Peng's team, researchers at IBM company and Stanford University have also been developing carbon nanotube transistors.

"Carbon nanotube-based devices can operate much faster at a much lower voltage compared with the traditional silicon-based ones," Peng said.

He said that low power consumption means smart phones in the future made with carbon-based chips could have a much longer battery life, and their front cameras may have the same pixel as the back cameras.

What's more, carbon nanotube transistors can be used to produce flexible and sensitive tiny medical sensors to test data such as blood pressure, heart beat and blood sugar in humans, due to the high flexibility and sensitivity of carbon materials.

Peng believes that the technological breakthrough may be able to lead the way for China's semiconductor industry to surge ahead.

Although China is the top semiconductor consumer in the world, over 70 percent of its chips depend on imports. The Chinese mainland spent 230.7 billion U.S. dollars importing chips in 2015, which is 1.7 times that spent on crude oil.

As Moore's Law is nearing its end, there is a big chance for China to lead the world in future semiconductor industry with research on carbon nanotube transistors, according to Peng.

"However, it is not easy for any scientific outcomes to be industrialized, as there is always a huge gap between the laboratory and factory," Peng said.

Besides scientific devotion, government support and company cooperation are indispensable.

In June 2014, China published a development outline for the integrate circuit industry in which the industry was defined as a strategic, basic and pilot industry, key to economic and social development and national security.

In September 2014, a national foundation for the integrate circuit industry was launched with a first issuing of 120 billion yuan (17.6 billion U.S. dollars).

The country's "Made in China 2025" plan vows that China's self-sufficiency in chips will reach 40 percent in 2020, and 50 percent in 2025.

"Compared with fancy scientific applications, it is more important to invest in basic scientific fields such as the chips, since it plays an essential role for the development of a country's scientific competence," Peng said.
 
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China Tunes Neural Networks for Custom Supercomputer Chip

July 11, 2017 Nicole Hemsoth

sunway-taihulight-bw-200x152.jpg


Supercomputing centers around the world are preparing their next generation architectural approaches for the insertion of AI into scientific workflows. For some, this means retooling around an existing architecture to make capability of double-duty for both HPC and AI.

Teams in China working on the top performing supercomputer in the world, the Sunway TaihuLight machine with its custom processor, have shown that their optimizations for theSW26010 architecture on deep learning models have yielded a 1.91-9.75X speedup over a GPU accelerated model using the Nvidia Tesla K40m in a test convolutional neural network run with over 100 parameter configurations.

Efforts on this system show that high performance deep learning is possible at scale on a CPU-only architecture. The Sunway TaihuLight machine is based on the 260-core Sunway SW26010, which we detailed here from both a chip and systems perspective. The convolutional neural network work was bundled together as swDNN, a library for accelerating deep learning on the TaihuLight supercomputer

According to Dr. Haohuan Fu, one of the leads behind the swDNN framework for the Sunway architecture (and associate director at the National Supercomputing Center in Wuxi, where TaihuLight is located), the processor has a number of unique features that couple potentially help the training process of deep neural networks. These include “the on-chip fusion of both management cores and computing core clusters, the support of a user-controlled fast buffer for the 256 computing cores, hardware-supported scheme for register communication across different cores, as well as the unified memory space shared by the four core groups, each with 65 cores.”



Despite some of the features that make the SW26010 a good fit for neural networks, there were some limitations teams had to work around, the most prominent of which was memory bandwidth limitations—something that is a problem on all processors and accelerators tackling neural network training in particular. “The DDR3 memory interface provides a peak bandwidth of 36GB/s for each compute group (64 of the compute elements) for a total bandwidth of 144 GB/s per processor. The Nvidia K80 GPU, with a similar double-precision performance of 2.91 teraflops, provides aggregate memory bandwidth of 480 GB/s…Therefore, while CNNs are considered a compute-intensive kernel care had to be taken with the memory access scheme to alleviate the memory bandwidth constraints.” Further, since the processor does not have a shared buffer for frequent data communications as are needed in CNNs, the team had to rely on a fine-grained data sharing scheme based on row and column communication buses in the CPU mesh.

“The optimized swDNN framework, at current stage, can provide a double-precision performance of over 1.6 teraflops for the convolution kernels, achieving over 50% of the theoretical peak. The significant performance improvements achieved from a careful utilization of the SW26010s architectural features and a systematic optimization process demonstrate that these unique features and corresponding optimization schemes are potential candidates to be included in future DNN architectures as well as DNN-specific compilation tools.”

According to Fu, “By performing a systematic optimization that explores major factors of deep learning, including the organization of convolution loops, blocking techniques, register data communication schemes, as well as reordering strategies for the two pipelines of instructions, the SW26010 processor on the Sunway TaihuLight supercomputer has managed to achieve a double-precision performance of over 1.6 teraflops for the convolution kernel, achieving 54% of the theoretical peak.”



To further get around the memory bandwidth limitations, the team created a three-pronged approach to memory for its manycore architecture. Depending on what is required, the CPE (compute elements) mesh can access the data items either directly from global memory or from the three-level memory hierarchy (register, local data memory and larger, slower memory).

Part of the long-term plan for the Sunway TaihuLight supercomputer is to continue work on scaling traditional HPC applications to exascale, but also to continue neural network efforts in a companion direction. Fu says that TaihuLight teams are continuing the development of swDNN and are also collaborating with face++ for facial recognition applications on the supercomputer in addition to work with Sogou for voice and speech recognition. Most interesting (and vague) was the passing mention of a potential custom chip for deep learning, although he was non-committal.

The team has created a customized register communication scheme that targets maximizing data reuse in the convolution kernels, which reduces the memory bandwidth requirements by almost an order of magnitude, they report inthe full paper (IEEE subscription required). “A careful design of the most suitable pipelining of instructions was also built that reduces the idling time of the computation units by maximizing the overlap of memory operation and computation instructions, thus maximizing the overall training performance on the SW26010.”



Double precision performance results for different convolution kernels compared with the Nvidia Tesla K40 using the cuDNNv5 libraries.

To be fair, the Tesla K40 is not much of a comparison point to newer architectures, including Nvidia’s Pascal GPUs. Nonetheless, the Sunway architecture could show comparable performance with GPUs for convolutional neural networks—paving the way for more discussion about the centrality of GPUs in current deep learning systems if CPUs can be rerouted to do similar work for a lower price point.

The emphasis on double-precision floating point is also of interest since the trend in training and certainly inference is to push lower while balancing accuracy requirements. Also left unanswered is how convolutional neural network training might scale across the many nodes available—in short, is the test size indicative of the scalability limits before the communication bottleneck becomes too severe to make this efficient. However, armed with these software libraries and the need to keep pushing deep learning into the HPC stack, it is not absurd to think Sunway might build their own custom deep learning chip, especially if the need arises elsewhere in China—which we suspect it will.

More on the deep learning library for the Sunway machine can be found at GitHub.

https://www.nextplatform.com/2017/07/11/china-tunes-neural-networks-custom-supercomputer-chip/

@Bussard Ramjet :lol::lol:
 
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Chinese mainland moving up in global semiconductor sector

By Ning Nanshan Source:Global Times Published: 2017/9/28

Mainland moving up in global semiconductor sector

b03e0491-eb3f-498e-a965-f3d6fd42e756.jpeg



In terms of the semiconductor industry, the US is super-strong, South Korea has advantages in storage and Europe has three first-class semiconductor companies - NXP, Infineon and STMicroelectronics. NXP is now in talks with Qualcomm, and if these are successful, there may soon be only two big semiconductor companies in Europe.

Japan has three first-class semiconductor companies: Renesas Electronics, Sony's CMOS chips and Toshiba Semiconductor. Sony's CMOS chips are doing well. They have a large market share and bring a lot of profits for the company. But Toshiba has long been struggling and is looking for a buyer for its semiconductor business.

Taiwan used to be a strong player in the sector but is now facing difficulties. The Taiwan Semiconductor Association estimated that compared to 2016, the overall output value of Taiwan's semiconductor industry in 2017 will grow by only 1 percent, while the output value of the global semiconductor market in 2017 is expected to grow by 9.8 percent compared to 2016.

In terms of output value from the semiconductor industry, the sector in Taiwan earned NT$114.4 billion ($3.8 billion) in the first half of 2017, compared to an equivalent of about NT$990 billion for the Chinese mainland. The overall development speed of the Chinese mainland in terms of the semiconductor industry has been significantly faster than in Taiwan recently.

According to statistics from the China Semiconductor Industry Association, China's IC (integrated circuit) industry sales in January to June 2017 increased by 19.1 percent. What about Taiwan? In the second quarter of 2017, there was a 4.8 percent decline.

Design, manufacturing, packaging and testing are the four major parts of the semiconductor business. As for design, packaging and testing, the Chinese mainland has caught up with Taiwan, so Taiwan's only advantage is in manufacturing. Taiwan's GDP in 2016 was about $560 billion, and semiconductor giant TSMC contributed $10 billion in net profit to that figure. In addition, TSMC also provides tens of thousands of jobs and a large amount of tax revenue.

It is no exaggeration to say that the semiconductor manufacturing industry is the cornerstone of Taiwan's economy. Taiwan has three semiconductor companies in the global top 20. Two are engaged mainly in manufacturing (TSMC and UMC), and the other specializes in design (MediaTek).

The output value of IC design in Taiwan in the first half of 2017 was NT$20.94 billion, while in the Chinese mainland it was the equivalent of NT$373.5 billion, indicating that Taiwan has been surpassed in the IC design industry.

Having been behind Taiwan to now surpassing it, the Chinese mainland is now chasing Japan, South Korea and Europe. In the first half of 2017, China's chip design industry grew by 21.1 percent, with sales of 83.01 billion yuan ($12.5 billion), continuing to maintain the world's fastest growth rate in the sector.

In the area of State-owned enterprises, there are numerous companies, such as Datang Microelectronics and Welltec, that have the ability to ensure national security. For instance, on September 16, 2017, Welltec released the Beidou navigation positioning chip, which will inspire growth of a new industry in the future.

However, in Europe, Japan and Taiwan, the situation is less promising and Taiwan is facing the biggest challenge. Europe and Japan have booming automotive and electronics industries to compensate for the decline in consumer electronics, but Taiwan is not as lucky.

As the market share of Chinese mainland self-produced chips keeps growing, and as Taiwan has no other industry of comparable strength to support its economy, it may have to seek greater cooperation with the mainland to make ends meet.

The author is a Shenzhen-based economics commentator. bizopinion@globaltimes.com.cn
 
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Several years ago Taiwan is a much bigger country than the tiny China who is poor and backwards.

But today, Taiwan is like a little dusk, that is going to be blown away by the wind.

10 years ago that feel like just yesterday, a news about China - Taiwan relationship is like a big political thru, that bring tears to many people.

But now.... I almost forget that Taiwan is still exist, if not this article.
 
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Several years ago Taiwan is a much bigger country than the tiny China who is poor and backwards.

But today, Taiwan is like a little dusk, that is going to be blown away by the wind.

10 years ago that feel like just yesterday, a news about China - Taiwan relationship is like a big political thru, that bring tears to many people.

But now.... I almost forget that Taiwan is still exist, if not this article.

I still hope, and is also observing that, the squeezing of Taiwan's semiconductor industry will bring Mainland and Taiwan closer into cooperation.

In the end, we are the same people with deep historical, cultural and socio-economic ties.

What I care about is CHINA, per se, and I see Mainland and Taiwan as two political expressions of it. Although I live in Taiwan, I see the bright future of Greater China as a unified entity.

So, coming back to semiconductors, it does indeed mean a lot for Taiwan. If economy really goes bad due to market lose, then, this is bad news for the present leadership, which would be another good outcome for the upcoming election if DPP lost it.
 
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I still hope, and is also observing that, the squeezing of Taiwan's semiconductor industry will bring Mainland and Taiwan closer into cooperation.

In the end, we are the same people with deep historical, cultural and socio-economic ties.

What I care about is CHINA, per se, and I see Mainland and Taiwan as two political expressions of it. Although I live in Taiwan, I see the bright future of Greater China as a unified entity.

So, coming back to semiconductors, it does indeed mean a lot for Taiwan. If economy really goes bad due to market lose, then, this is bad news for the present leadership, which would be another good outcome for the upcoming election if DPP lost it.

I think Taiwan and China need an economy integration. F*ck the politics and governments!

It's a big dilemma for Taiwan... In the near future China is not just world biggest economy, but also many of the technological breakthrough will be discovered there too.

Like Taiwan learned and developed IT industry from USA, the same thing will be happened toward China in the near future, whatever they are quantum computer, ai, robotics, etc.

But the politics keep Taiwan away from China. The most frustrating is... Taiwan and China is closer than brother, it's basically one people one country. But the current politics makes it's like a very distance, even more than enemy.

Taiwan is so stupid, being toyed by USA using DPP, for the USA own interests, sacrificed Taiwan future.
 
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huawei new ai chip core is made by cambricon :D


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China startup Cambricon reveals ambitious AI chip shipment plan

Jean Chu, Taipei; Willis Ke, DIGITIMES
China-based AI (artificial intelligence) chip startup Cambricon Technologies expects to roll out hundreds of millions of AI SoCs needed for smart terminal devices and servers in the next three years, the firm's CEO Chen Tianshi has said.

Chen made the remarks while talking the press on the side line of the 2017 Global Artificial Intelligence Innovation Summit held August 30 in Shanghai. He said while the Moore's Law has been the engine driving the development of AI over the past decade, such an engine will slow down in the next decade, when dedicated deep-learning processors are badly needed to support massive AI applications in cloud services and terminal devices.

Chen said that supported by the Chinese Academy of Science, Cambricon has launched the world's first IP instruction set for smart processor, and will move to expand its technical licensing to more enterprises engaged in AI applications, so as to help more AI businesses sharpen their smart processing capabilities and jointly build up an AI ecosystem. In this regard, Huawei's HiSilicon Kirin 970 chipset, to be rolled out in September, is to carry the IP instruction set for Cambricon-1A chip instruction set, the first chip dedicated to high-performance neural network applications.

In the field of smart cloud services, Chen also revealed that Cambricon is cooperating with Dawning Information Industry, a Beijing-based company engaged in high-performance computing, cloud computing, and servers on the application of the firm's dedicated AI chips and acceleration cards, adding that Sense Time and iFLYTEK, leading AI enterprises in China, are also among Cambricon's potential customers.

Chen said that as Intel's X86 instruction set architecture played a dominant role in the past PC era, Cambricon will endeavor to lead the market for AI instruction set architecture for smart terminal devices. It is now an era featuring massive explosion of smart technologies, leading to the development of multiple algorithms for different deep learning levels to support different applications of AI technologies.

http://www.digitimes.com/news/a20170831PD206.html
Cambricon Raises US$100 Million In Series A Funding Read more from Asian Scientist Magazine at: https://www.asianscientist.com/2017/08/tech/cambricon-series-a-funding-unicorn/

O829U8b.jpg

gJwx03u.jpg
 
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I think Taiwan and China need an economy integration. F*ck the politics and governments!

It's a big dilemma for Taiwan... In the near future China is not just world biggest economy, but also many of the technological breakthrough will be discovered there too.

Like Taiwan learned and developed IT industry from USA, the same thing will be happened toward China in the near future, whatever they are quantum computer, ai, robotics, etc.

But the politics keep Taiwan away from China. The most frustrating is... Taiwan and China is closer than brother, it's basically one people one country. But the current politics makes it's like a very distance, even more than enemy.

Taiwan is so stupid, being toyed by USA using DPP, for the USA own interests, sacrificed Taiwan future.
No way. USA is master and Taiwan is slave.:-)
 
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huawei new ai chip core is made by cambricon :D


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China startup Cambricon reveals ambitious AI chip shipment plan

Jean Chu, Taipei; Willis Ke, DIGITIMES
China-based AI (artificial intelligence) chip startup Cambricon Technologies expects to roll out hundreds of millions of AI SoCs needed for smart terminal devices and servers in the next three years, the firm's CEO Chen Tianshi has said.

Chen made the remarks while talking the press on the side line of the 2017 Global Artificial Intelligence Innovation Summit held August 30 in Shanghai. He said while the Moore's Law has been the engine driving the development of AI over the past decade, such an engine will slow down in the next decade, when dedicated deep-learning processors are badly needed to support massive AI applications in cloud services and terminal devices.

Chen said that supported by the Chinese Academy of Science, Cambricon has launched the world's first IP instruction set for smart processor, and will move to expand its technical licensing to more enterprises engaged in AI applications, so as to help more AI businesses sharpen their smart processing capabilities and jointly build up an AI ecosystem. In this regard, Huawei's HiSilicon Kirin 970 chipset, to be rolled out in September, is to carry the IP instruction set for Cambricon-1A chip instruction set, the first chip dedicated to high-performance neural network applications.

In the field of smart cloud services, Chen also revealed that Cambricon is cooperating with Dawning Information Industry, a Beijing-based company engaged in high-performance computing, cloud computing, and servers on the application of the firm's dedicated AI chips and acceleration cards, adding that Sense Time and iFLYTEK, leading AI enterprises in China, are also among Cambricon's potential customers.

Chen said that as Intel's X86 instruction set architecture played a dominant role in the past PC era, Cambricon will endeavor to lead the market for AI instruction set architecture for smart terminal devices. It is now an era featuring massive explosion of smart technologies, leading to the development of multiple algorithms for different deep learning levels to support different applications of AI technologies.

http://www.digitimes.com/news/a20170831PD206.html
Cambricon Raises US$100 Million In Series A Funding Read more from Asian Scientist Magazine at: https://www.asianscientist.com/2017/08/tech/cambricon-series-a-funding-unicorn/

O829U8b.jpg

gJwx03u.jpg

Great news. I think AI chips is the way for China to ensure leadership in next generation chips.

A similar development with e-vehicles, in which China is now building up a global leading status.

Traditional industries are hard to crack in.
 
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Great news. I think AI chips is the way for China to ensure leadership in next generation chips.

A similar development with e-vehicles, in which China is now building up a global leading status.

Traditional industries are hard to crack in.

next generation ai chip is neuromorphic designed like your brain. zhejiang uni already made one prototype in 2015 called darwin chip. chinese startup westwell lab is currently designing a more powerful one for commercial use.

current generation chinese ai chip companies that i know of :D

cambricon
horizon robotics
chipIntelli
intellifusion
novunind
vimicro
baidu XPU (FPGA)
 
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